Acetaminophen belongs to a class of drugs called analgesics (pain relievers) and antipyretics (fever reducers). The exact mechanism of action of acetaminophen is not known. Acetaminophen relieves pain by elevating the pain threshold, that is, by requiring a greater amount of pain to develop before it is felt by a person. It reduces fever through its action on the heat-regulating center of the brain. Specifically, it tells the center to lower the body's temperature when the temperature is elevated. Acetaminophen was approved by the FDA in 1951.

if theres a chemical make up for water then what the chem formula for fire?

It is important to draw wisdom from many different places. If we take it from only one place, it becomes rigid and stale. Understanding others - other people, other beliefs, and other nations - will help you become whole.

Ts'ao Jian wrote:i think only solids, liquids, and gases have a chmical makeup. fire is, i believe, plasma, and i;m not sure plasma has a makeup. feel free to correct me if i'm wrong.

No plasma is (yay physics time) 'an electrically neutral, highly ionized gas composed of ions, electrons, and neutral particles.' Basically its a phase of matter, different from solid, liquid or gas. I'll edit my post with a link to explain what plasma is in more detail, but I can't seem to find the link I want.

"The imaginary number is a fine and wonderful resource of the human spirit, almost an amphibian between being and not being." - Gottfried LeibnizScience snobbery.

HiddenRanbir wrote:No plasma is (yay physics time) 'an electrically neutral, highly ionized gas composed of ions, electrons, and neutral particles.' Basically its a phase of matter, different from solid, liquid or gas. I'll edit my post with a link to explain what plasma is in more detail, but I can't seem to find the link I want.

Cool...since it's come up I thought I might as well ask, what exactly is plasma? If it's highly ionized gas, how can it be electrically neutral?

HiddenRanbir wrote:No plasma is (yay physics time) 'an electrically neutral, highly ionized gas composed of ions, electrons, and neutral particles.' Basically its a phase of matter, different from solid, liquid or gas. I'll edit my post with a link to explain what plasma is in more detail, but I can't seem to find the link I want.

Cool...since it's come up I thought I might as well ask, what exactly is plasma? If it's highly ionized gas, how can it be electrically neutral?

About the neutrality of the gas...the individual atoms in the gas are charged. The total number of the positive and negative charges however are equal, thus maintaining an overall electrical neutrality.

Anyway, I can explain the whole thing indepth now.

Plasma is often called the "Fourth State of Matter", the other three being solid, liquid and gas. A plasma is a distinct state of matter containing a significant number of electrically charged particles, a number sufficient to affect its electrical properties and behavior. In addition to being important in many aspects of our daily lives, plasmas are estimated to constitute more than 99 percent of the visible universe.

See, in a normal gas, each atom contains a equal numbers of positive and negative charge. (protons and electrons are the same). Therefore, each atom is neutral. A gas will become plasma, with the addition of extra energy, such as heat. With enough energy, there will be a significant number of atoms which release some or all of their electrons. This leaves the atoms with a positive charge, these are said to be "ionized". When enough atoms are ionized to significantly affect the electrical characteristics of the gas, it is a plasma. The free electrons provide the negative charge which keep the gas neutral overall.

In many cases interactions between the charged particles and the neutral particles are important in determining the behavior and usefulness of the plasma. The type of atoms in a plasma, the ratio of ionized to neutral particles and the particle energies all result in a broad spectrum of plasma types, characteristics and behaviors. These unique behaviors cause plasmas to be useful in a large and growing number of important applications in our lives.

One example is our quest for Nuclear Fusion. Fusion takes place in the middle of the sun where the hydrogen gas is most dense. This high density also gives the gas an extremely hot temperature. To recreate this for ourselves, we are trying to use plasma, which is hotter than the center of the sun, but isn't as dense. How do we keep this plasma from hurting us? In a magnetic field.

Ok, thats all the info for today. If you have anymore questions, just post them here, and I'll reply with an answer ASAP.

"The imaginary number is a fine and wonderful resource of the human spirit, almost an amphibian between being and not being." - Gottfried LeibnizScience snobbery.